CN103616920A - Energy saving device with zero standby power consumption and method for operating energy saving device - Google Patents

Abstract

The invention relates to a power saving device with zero standby power consumption and a method for operating the power saving device. The energy saving device and the method are applicable to achieving the purpose of saving power for office electric appliances and household electric appliances. The energy saving device comprises an alternating-current power circuit, a direct-current stabilized-voltage power circuit, an energy storage switching circuit of a power source, a starting control circuit of the power source, an infrared receiving circuit, a driving circuit and a current detecting circuit. The method includes that alternating-current power sources of a computer host and peripheral equipment of a computer and the alternating-current power source of the power saving device can be automatically switched off after the computer host is powered off; an alternating-current power source of electric equipment and the alternating-current power source of the energy saving device can be automatically switched off after the electric equipment with an infrared remote-control receiving function is powered off under the remote control; only a power on/off button on the original remote control needs to be pushed when the electric equipment needs to be used again, so that the electric equipment can be started under the condition of zero standby power consumption; alternating-current power sources of the office electric appliances or household electric appliances which are in standby states and the alternating-current power source of the energy saving device can be automatically switched off, so that the standby power consumption can be eliminated. The power saving device and the method have the advantages that the power saving device is applicable to various types of electric equipment, and the energy saving device and the method are high in practicality.

Description

A kind of zero stand-by power consumption battery saving arrangement and method of work thereof

Technical field

The present invention relates to be applicable to handle official business electrical equipment and household electrical appliance are realized a kind of zero stand-by power consumption battery saving arrangement and method of work thereof of economize on electricity object.

Background technology

The now use of office electrical equipment and household electrical appliance is very universal, and how energy-conservation office electrical equipment and household electrical appliance are has become the emphasis that people pay close attention to, and energy-conserving and environment-protective have become the theme of people's live and work.When computer and computer peripheral equipment use, by operation requirements, the power switch of host computer and computer peripheral equipment to be closed or attaching plug is pulled out; Televisor and Set Top Box also will be closed the power switch of televisor and Set Top Box or attaching plug is pulled out after having been watched that TV programme is shut down with telepilot; After the shutdown of idle call telepilot, equally also air conditioner power source plug to be pulled out.If the power switch of the office electrical equipment using or household electrical appliance is not closed or attaching plug is not pulled out, office electrical equipment or household electrical appliance standby for a long time, wasted a large amount of electric power energies, caused temperature rising, component ageing, the complete machine of office electrical equipment and household electrical appliance damaged, reduced office electrical equipment or household electrical appliance serviceable life, easily produce the consequences such as fire, to user, brought unnecessary trouble or caused irremediable economic loss.The standby situation of office electrical equipment and household electrical appliance is very general, in use feels inconvenient and is unwilling or often forgets the power switch of closing office electrical equipment or household electrical appliance, or feel inconvenient and be unwilling or often forget attaching plug is pulled out.Often plug attaching plug is easy to again cause attaching plug and supply socket loose contact, easily damages the generation of office electrical equipment or household electrical appliance and fire.Through retrieval, do not find that can be reflected as the stand-by power consumption that solves office electrical equipment and household electrical appliance and zero stand-by power consumption battery saving arrangement be all zero related background art file.

Summary of the invention

The present invention relates to be applicable to handle official business electrical equipment and household electrical appliance are realized a kind of zero stand-by power consumption battery saving arrangement and method of work thereof of economize on electricity object, and this device can be closed the AC power of host computer and computer peripheral equipment and zero stand-by power consumption battery saving arrangement automatically after shut down of computer; Can, finishing watching TV with after telepilot shutdown, automatically the AC power of televisor and Set Top Box and zero stand-by power consumption battery saving arrangement be closed; Can, after using the shutdown of idle call telepilot, automatically the AC power of air-conditioning and zero stand-by power consumption battery saving arrangement be closed.When again televiewing or using air-conditioning, only need press the power on/off button on former telepilot, not change original use habit and use-pattern, realize office electrical equipment and household electrical appliance and the zero stand-by power consumption of zero stand-by power consumption battery saving arrangement also can start.This device can be automatically entering the office electrical equipment of holding state or the AC power Close All of household electrical appliance and this device itself, for the economize on electricity of office electrical equipment and household electrical appliance provides a kind of zero stand-by power consumption battery saving arrangement, the stand-by power consumption of electrical equipment and household electrical appliance and this device itself of making to handle official business equals zero, eliminated stand-by power consumption, saved electric power energy, avoided potential safety hazard, extend the serviceable life of office electrical equipment and household electrical appliance, stopped the generation of office electrical equipment or household electrical appliance fire.This device is applicable to the use of multiple office electrical equipment and household electrical appliance and other electrical appliance, and this zero stand-by power consumption battery saving arrangement has good versatility and practicality.

To achieve these goals, technical scheme of the present invention is as follows:

A kind of zero stand-by power consumption battery saving arrangement, it is characterized in that this device comprises AC power circuit, DC-stabilized circuit, power supply energy storage change-over circuit, energy supply startup control circuit, infrared radiation receiving circuit, driving circuit and current detection circuit, the AC power of described AC power circuit is connected to the power input of DC-stabilized circuit, the output terminal of DC-stabilized circuit is connected respectively to power supply energy storage change-over circuit, infrared radiation receiving circuit, driving circuit and current detection circuit, the master control power supply of described AC power circuit is connected to the input end of current detection circuit, the output terminal of current detection circuit is connected to the input control end of driving circuit, the power output end of described power supply energy storage change-over circuit is connected respectively to infrared radiation receiving circuit and driving circuit, the power supply of power supply energy storage change-over circuit is connected to the input end of energy supply startup control circuit, the control end of described energy supply startup control circuit is connected to the power end of power supply energy storage change-over circuit,

Described AC power circuit comprises AC power start button SB1, the normally opened contact of relay K, master control supply socket XS1 and controlled source socket XS2, described one end of normally opened contact of AC power start button SB1 and one end of the normally opened contact of relay K are connected respectively to the L end of AC power, the other end of normally opened contact of AC power start button SB1 and the other end of the normally opened contact of relay K are connected respectively to the L end of controlled source socket XS2, one input end of the primary coil of the primary coil input end of the power transformer T of DC-stabilized circuit and the current sensor TA of current detection circuit, another input end of the primary coil of current sensor TA is connected to the L end of master control supply socket XS1,

Described DC-stabilized circuit comprises power transformer T, rectifier bridge diode UR, voltage stabilizer IC1, insurance FU, resistance R 7, capacitor C 1, capacitor C 2, capacitor C 3, diode D1 and light emitting diode VL1, two output terminals of the secondary coil of described power transformer T are connected respectively to two input ends of rectifier bridge diode UR, the cathode output end of rectifier bridge diode UR is connected respectively to the positive terminal of capacitor C 1 and the power input Vin of voltage stabilizer IC1, and the negative pole end of voltage stabilizer IC1 is connected to the negative pole end V of rectifier bridge diode UR _sSthe power output end Vout of voltage stabilizer IC1 through insurance FU be connected respectively to the positive terminal of capacitor C 2, one end of resistance R 8 of one end of resistance R 7, power supply energy storage change-over circuit, the positive terminal of diode D10 of the collector of triode V3, driving circuit and the resistance R of current detection circuit 11 one end, the negative pole end of described diode D1 is connected respectively to one end of capacitor C 3, the power input V of one end of the resistance R of driving circuit 10, the positive terminal of capacitor C 10, the inverter ic of infrared radiation receiving circuit 3 _dDpower input V with infrared receiver IR _dD, the other end of described resistance R 7 is connected to the positive terminal of light emitting diode VL1;

Described power supply energy storage change-over circuit comprises resistance R 8, capacitor C 8, diode D2, diode D3, voltage stabilizing diode VS2, triode V3, voltage transformation module IC2 and charge power supply GB, one end of described resistance R 8 is connected respectively to the base stage of negative pole end and the triode V3 of voltage stabilizing diode VS2, the emitter of triode V3 is connected respectively to the positive terminal of capacitor C 8, the negative pole end of diode D3, one end of the infrared receiver switch V5 of the power input Vin of voltage transformation module IC2 and energy supply startup control circuit, one end of direct supply start button SB2, the positive terminal of described diode D3 is connected to the positive terminal of charge power supply GB, the negative pole end of described diode D2 is connected respectively to the power input V of the inverter ic 3 of infrared radiation receiving circuit _dD, infrared receiver IR power input V _dDwith the positive terminal of capacitor C 10 of driving circuit, one end of resistance R 10,

Described energy supply startup control circuit comprises resistance R 12, diode D12, triode V4, infrared receiver switch V5 and direct supply start button SB2, one end of described infrared receiver switch V5 is connected to the base stage of triode V4 through resistance R 12, the collector of triode V4 is connected to the GND end of the voltage transformation module IC2 of power supply energy storage change-over circuit, one end of described direct supply start button SB2 is connected respectively to the positive terminal of the positive terminal of diode D12 and the diode D11 of driving circuit, the negative pole end of described diode D12 is connected to one end of resistance R 12 and the other end of infrared receiver switch V5,

Described infrared radiation receiving circuit comprises resistance R 9, capacitor C 6, capacitor C 7, diode D4, diode D5, diode D6, infrared receiver IR and inverter ic 3C, the output end vo ut of described infrared receiver IR is successively through capacitor C 7, diode D5, inverter ic 3C and diode D4 are connected to the input end of the inverter ic 3B of driving circuit, one end of described capacitor C 6 and one end of resistance R 9 are connected respectively to the input end of inverter ic 3C and the negative pole end of diode D5, the negative pole end of described diode D6 is connected respectively to the positive terminal of diode D5 and one end of capacitor C 7,

Described driving circuit comprises resistance R 1, resistance R 2, resistance R 3, resistance R 4, resistance R 10, capacitor C 4, capacitor C 5, capacitor C 10, diode D7, diode D9, diode D10, diode D11, triode V1, triode V2, inverter ic 3B and relay K, the negative pole end of described diode D10 is through capacitor C 4, resistance R 1 is connected respectively to one end of resistance R 4 and the base stage of triode V1, the negative pole end of described diode D11 is connected to one end of capacitor C 4, one end of described resistance R 3, the positive terminal of capacitor C 5, the collector of the positive terminal of diode D7 and triode V1 is connected respectively to the input end of inverter ic 3B, the output terminal of inverter ic 3B is connected to the base stage of triode V2 through resistance R 2, the collector of triode V2 is connected respectively to the positive terminal of diode D9 and coil one end of relay K, the coil other end of relay K is connected respectively to the negative pole end of diode D9, the negative pole end of one end of resistance R 10 and capacitor C 10,

Described current detection circuit comprises resistance R 5, resistance R 6, resistance R 11, resistor RP, capacitor C 9, diode D8, voltage stabilizing diode VS1, current sensor TA, light emitting diode VL2, triode V6 and inverter ic 3A, one end of the secondary coil of described current sensor TA is connected respectively to the positive terminal of capacitor C 9 through diode D8, one end of resistance R 5, the input end of the negative pole end of voltage stabilizing diode VS1 and inverter ic 3A, the output terminal of inverter ic 3A is connected respectively to one end of resistance R 6, one end of the resistance R 3 of driving circuit and the negative pole end of diode D7, the other end of described resistance R 5 is connected to one end of resistor RP, the other end of described resistance R 6 is connected to the base stage of triode V6, one end of described resistance R 11 is connected to the collector of triode V6 through light emitting diode VL2.

The charge power supply GB of described power supply energy storage change-over circuit is photoelectric cell.

The capacitor C 8 of described power supply energy storage change-over circuit is farad capacitor.

The voltage transformation module IC2 of described power supply energy storage change-over circuit is DC/DC voltage transformation module.

The infrared receiver switch V5 of described energy supply startup control circuit is infrared receiver tube.

The integrated infrared receiver of infrared receiver IR of described infrared radiation receiving circuit.

The current sensor TA of described current detection circuit is current transformer.

The resistor RP of described current detection circuit is adjustable resistor.

A method of work for zero stand-by power consumption battery saving arrangement, is characterized in that comprising following method of work step:

A, a kind of zero stand-by power consumption battery saving arrangement being formed by AC power circuit, DC-stabilized circuit, power supply energy storage change-over circuit, energy supply startup control circuit, infrared radiation receiving circuit, driving circuit and current detection circuit;

B, AC power AC deliver to DC-stabilized circuit after being connected to AC power circuit, the direct supply of DC-stabilized circuit output is delivered to respectively power supply energy storage change-over circuit, infrared radiation receiving circuit, driving circuit and current detection circuit, and after zero stand-by power consumption battery saving arrangement startup, DC-stabilized circuit is given capacitor C 8 chargings of power supply energy storage change-over circuit automatically;

The electric energy that the capacitor C 8 of C, power supply energy storage change-over circuit stores after voltage transformation module IC2 and diode D2 respectively for infrared radiation receiving circuit and driving circuit;

When D, zero stand-by power consumption battery saving arrangement quit work, by charge power supply GB, be capacitor C 8 electric energy supplement, for zero stand-by power consumption battery saving arrangement, start;

E is if used while not having the consumer of infra-red remote control receiving function, press the AC power start button SB1 of AC power circuit or press the direct supply start button SB2 of energy supply startup control circuit, make the normally opened contact adhesive of the relay K of AC power circuit, zero stand-by power consumption battery saving arrangement starts, and the AC power that is inserted in the consumer on master control supply socket XS1 is connected with the AC power that is inserted in the consumer on controlled source socket XS2;

F, if use while thering is the consumer of infra-red remote control receiving function, press the power on/off button on the infrared remote controller of used equipment, the infrared receiver switch V5 conducting of energy supply startup control circuit, the electric energy of power supply energy storage change-over circuit output is for infrared radiation receiving circuit and driving circuit, make infrared radiation receiving circuit output control signal, the normally opened contact adhesive of the relay K of AC power circuit, zero stand-by power consumption battery saving arrangement starts, the AC power that is inserted in the consumer on master control supply socket XS1 is connected with the AC power that is inserted in the consumer on controlled source socket XS2,

After G, zero stand-by power consumption battery saving arrangement start, consumer work on the master control supply socket XS1 of AC power circuit, the voltage of the out secondary output of the current sensor TA of current detection circuit is higher, the output terminal output low level of inverter ic 3A, relay K keeps adhesive, and the AC power that is inserted in the AC power of the consumer on the master control supply socket XS1 of AC power circuit and is inserted in the consumer on controlled source socket XS2 keeps connecting;

H, the consumer being inserted on the master control supply socket XS1 of AC power circuit uses while entering holding state, the voltage of the out secondary output of the current sensor TA of current detection circuit is lower, the output terminal output high level of inverter ic 3A, after resistance R 3 and capacitor C 5 time delays, make the output terminal output low level of inverter ic 3B, relay K discharges, the normally opened contact of the relay K of AC power circuit disconnects, be inserted in the AC power of the consumer on master control supply socket XS1 and be inserted in the AC power of the consumer on controlled source socket XS2 and the whole power-off of AC power of zero stand-by power consumption battery saving arrangement itself.

The present invention has following beneficial effect:

1, the present invention's zero stand-by power consumption battery saving arrangement can be according to user's needs, the quantity of choice for use equipment and use the type of equipment and the working method of use easily, that this zero stand-by power consumption battery saving arrangement has is easy to use, science, the feature such as reasonable, practical.

2, the present invention's zero stand-by power consumption battery saving arrangement has avoided attaching plug that frequent plug attaching plug causes to damage the generation of handle official business electrical equipment or household electrical appliance and fire with supply socket loose contact.

3, the present invention's zero stand-by power consumption battery saving arrangement has reduced the number of operations of user to office electrical equipment or household electrical appliance machine open/close, to user, provides great easy to use.

4, the present invention's zero stand-by power consumption battery saving arrangement can be handling official business electrical equipment or household electrical appliance when entering holding state, and after surpassing the time (time, Shi Miaoji unit was to classification unit) of setting, meeting is automatically entering the office electrical equipment of holding state or the AC power Close All of household electrical appliance and zero stand-by power consumption battery saving arrangement itself.

5, the present invention's zero stand-by power consumption battery saving arrangement can make the stand-by power consumption of multiple office electrical equipment and household electrical appliance and zero stand-by power consumption battery saving arrangement itself equal zero, eliminated stand-by power consumption, saved electric power energy, avoided potential safety hazard, stopped the generation of office electrical equipment or household electrical appliance fire, extend the serviceable life of office electrical equipment and household electrical appliance and zero stand-by power consumption battery saving arrangement, thoroughly solved the problem that office electrical equipment and household electrical appliance do not have zero stand-by power consumption battery saving arrangement present situation in use.

6, the consumer that the present invention's zero stand-by power consumption battery saving arrangement is applicable to have the consumer use of infra-red remote control receiving function and do not have infra-red remote control receiving function is used, and has good versatility and practicality.

Accompanying drawing explanation

Fig. 1 is zero stand-by power consumption battery saving arrangement circuit block diagram.

In Fig. 1: 1--is AC power circuit; 2--is DC-stabilized circuit; 3--is power supply energy storage change-over circuit; 4--energy supply startup control circuit; 5--is infrared radiation receiving circuit; 6--is driving circuit; 7--is current detection circuit.

Fig. 2 is zero stand-by power consumption battery saving arrangement circuit theory diagrams.

In Fig. 2: SB1 is AC power start button; SB2 is direct supply start button; GB is charge power supply; IC1 is voltage stabilizer; IC2 is DC/DC voltage transformation module; V5 is infrared receiver switch; IC3 is phase inverter; IR is infrared receiver; T is power transformer; TA is current sensor; UR is rectifier bridge diode; VL1 is power initiation light emitting diode; VL2 is standby indication light diode; K is power control relay; XS1 is master control supply socket; XS2 is controlled source socket.

Embodiment

By reference to the accompanying drawings 1, accompanying drawing 2 and three embodiment are described in further detail the present invention:

As accompanying drawing 1, shown in accompanying drawing 2, a kind of zero stand-by power consumption battery saving arrangement, it is characterized in that this device comprises AC power circuit, DC-stabilized circuit, power supply energy storage change-over circuit, energy supply startup control circuit, infrared radiation receiving circuit, driving circuit and current detection circuit, the AC power of described AC power circuit is connected to the power input of DC-stabilized circuit, the output terminal of DC-stabilized circuit is connected respectively to power supply energy storage change-over circuit, infrared radiation receiving circuit, driving circuit and current detection circuit, the master control power supply of described AC power circuit is connected to the input end of current detection circuit, the output terminal of current detection circuit is connected to the input control end of driving circuit, the power output end of described power supply energy storage change-over circuit is connected respectively to infrared radiation receiving circuit and driving circuit, the power supply of power supply energy storage change-over circuit is connected to the input end of energy supply startup control circuit, the control end of described energy supply startup control circuit is connected to the power end of power supply energy storage change-over circuit,

Described AC power circuit comprises AC power start button SB1, the normally opened contact of relay K, master control supply socket XS1 and controlled source socket XS2, described one end of normally opened contact of AC power start button SB1 and one end of the normally opened contact of relay K are connected respectively to the L end of AC power, the other end of normally opened contact of AC power start button SB1 and the other end of the normally opened contact of relay K are connected respectively to the L end of controlled source socket XS2, one input end of the primary coil of the primary coil input end of the power transformer T of DC-stabilized circuit and the current sensor TA of current detection circuit, another input end of the primary coil of current sensor TA is connected to the L end of master control supply socket XS1,

Described DC-stabilized circuit comprises power transformer T, rectifier bridge diode UR, voltage stabilizer IC1, insurance FU, resistance R 7, capacitor C 1, capacitor C 2, capacitor C 3, diode D1 and light emitting diode VL1, two output terminals of the secondary coil of described power transformer T are connected respectively to two input ends of rectifier bridge diode UR, the cathode output end of rectifier bridge diode UR is connected respectively to the positive terminal of capacitor C 1 and the power input Vin of voltage stabilizer IC1, and the negative pole end of voltage stabilizer IC1 is connected to the negative pole end V of rectifier bridge diode UR _sSthe power output end Vout of voltage stabilizer IC1 through insurance FU be connected respectively to the positive terminal of capacitor C 2, one end of resistance R 8 of one end of resistance R 7, power supply energy storage change-over circuit, the positive terminal of diode D10 of the collector of triode V3, driving circuit and the resistance R of current detection circuit 11 one end, the negative pole end of described diode D1 is connected respectively to one end of capacitor C 3, the power input V of one end of the resistance R of driving circuit 10, the positive terminal of capacitor C 10, the inverter ic of infrared radiation receiving circuit 3 _dDpower input V with infrared receiver IR _dD, the other end of described resistance R 7 is connected to the positive terminal of light emitting diode VL1;

Described power supply energy storage change-over circuit comprises resistance R 8, capacitor C 8, diode D2, diode D3, voltage stabilizing diode VS2, triode V3, voltage transformation module IC2 and charge power supply GB, one end of described resistance R 8 is connected respectively to the base stage of negative pole end and the triode V3 of voltage stabilizing diode VS2, the emitter of triode V3 is connected respectively to the positive terminal of capacitor C 8, the negative pole end of diode D3, one end of the infrared receiver switch V5 of the power input Vin of voltage transformation module IC2 and energy supply startup control circuit, one end of direct supply start button SB2, the positive terminal of described diode D3 is connected to the positive terminal of charge power supply GB, the negative pole end of described diode D2 is connected respectively to the power input V of the inverter ic 3 of infrared radiation receiving circuit _dD, infrared receiver IR power input V _dDwith the positive terminal of capacitor C 10 of driving circuit, one end of resistance R 10,

Described energy supply startup control circuit comprises resistance R 12, diode D12, triode V4, infrared receiver switch V5 and direct supply start button SB2, one end of described infrared receiver switch V5 is connected to the base stage of triode V4 through resistance R 12, the collector of triode V4 is connected to the GND end of the voltage transformation module IC2 of power supply energy storage change-over circuit, one end of described direct supply start button SB2 is connected respectively to the positive terminal of the positive terminal of diode D12 and the diode D11 of driving circuit, the negative pole end of described diode D12 is connected to one end of resistance R 12 and the other end of infrared receiver switch V5,

Described infrared radiation receiving circuit comprises resistance R 9, capacitor C 6, capacitor C 7, diode D4, diode D5, diode D6, infrared receiver IR and inverter ic 3C, the output end vo ut of described infrared receiver IR is successively through capacitor C 7, diode D5, inverter ic 3C and diode D4 are connected to the input end of the inverter ic 3B of driving circuit, one end of described capacitor C 6 and one end of resistance R 9 are connected respectively to the input end of inverter ic 3C and the negative pole end of diode D5, the negative pole end of described diode D6 is connected respectively to the positive terminal of diode D5 and one end of capacitor C 7,

Described driving circuit comprises resistance R 1, resistance R 2, resistance R 3, resistance R 4, resistance R 10, capacitor C 4, capacitor C 5, capacitor C 10, diode D7, diode D9, diode D10, diode D11, triode V1, triode V2, inverter ic 3B and relay K, the negative pole end of described diode D10 is through capacitor C 4, resistance R 1 is connected respectively to one end of resistance R 4 and the base stage of triode V1, the negative pole end of described diode D11 is connected to one end of capacitor C 4, one end of described resistance R 3, the positive terminal of capacitor C 5, the collector of the positive terminal of diode D7 and triode V1 is connected respectively to the input end of inverter ic 3B, the output terminal of inverter ic 3B is connected to the base stage of triode V2 through resistance R 2, the collector of triode V2 is connected respectively to the positive terminal of diode D9 and coil one end of relay K, the coil other end of relay K is connected respectively to the negative pole end of diode D9, the negative pole end of one end of resistance R 10 and capacitor C 10,

Described current detection circuit comprises resistance R 5, resistance R 6, resistance R 11, resistor RP, capacitor C 9, diode D8, voltage stabilizing diode VS1, current sensor TA, light emitting diode VL2, triode V6 and inverter ic 3A, one end of the secondary coil of described current sensor TA is connected respectively to the positive terminal of capacitor C 9 through diode D8, one end of resistance R 5, the input end of the negative pole end of voltage stabilizing diode VS1 and inverter ic 3A, the output terminal of inverter ic 3A is connected respectively to one end of resistance R 6, one end of the resistance R 3 of driving circuit and the negative pole end of diode D7, the other end of described resistance R 5 is connected to one end of resistor RP, the other end of described resistance R 6 is connected to the base stage of triode V6, one end of described resistance R 11 is connected to the collector of triode V6 through light emitting diode VL2.

The charge power supply GB of described power supply energy storage change-over circuit is photoelectric cell.

The capacitor C 8 of described power supply energy storage change-over circuit is farad capacitor.

The voltage transformation module IC2 of described power supply energy storage change-over circuit is DC/DC voltage transformation module.

The infrared receiver switch V5 of described energy supply startup control circuit is infrared receiver tube.

The integrated infrared receiver of infrared receiver IR of described infrared radiation receiving circuit.

The current sensor TA of described current detection circuit is current transformer.

The resistor RP of described current detection circuit is adjustable resistor.

A method of work for zero stand-by power consumption battery saving arrangement, is characterized in that comprising following method of work step:

A, a kind of zero stand-by power consumption battery saving arrangement being formed by AC power circuit, DC-stabilized circuit, power supply energy storage change-over circuit, energy supply startup control circuit, infrared radiation receiving circuit, driving circuit and current detection circuit;

B, AC power AC deliver to DC-stabilized circuit after being connected to AC power circuit, the direct supply of DC-stabilized circuit output is delivered to respectively power supply energy storage change-over circuit, infrared radiation receiving circuit, driving circuit and current detection circuit, and after zero stand-by power consumption battery saving arrangement startup, DC-stabilized circuit is given capacitor C 8 chargings of power supply energy storage change-over circuit automatically;

The electric energy that the capacitor C 8 of C, power supply energy storage change-over circuit stores after voltage transformation module IC2 and diode D2 respectively for infrared radiation receiving circuit and driving circuit;

When D, zero stand-by power consumption battery saving arrangement quit work, by charge power supply GB, be capacitor C 8 electric energy supplement, for zero stand-by power consumption battery saving arrangement, start;

E is if used while not having the consumer of infra-red remote control receiving function, press the AC power start button SB1 of AC power circuit or press the direct supply start button SB2 of energy supply startup control circuit, make the normally opened contact adhesive of the relay K of AC power circuit, zero stand-by power consumption battery saving arrangement starts, and the AC power that is inserted in the consumer on master control supply socket XS1 is connected with the AC power that is inserted in the consumer on controlled source socket XS2;

F, if use while thering is the consumer of infra-red remote control receiving function, press the power on/off button on the infrared remote controller of used equipment, the infrared receiver switch V5 conducting of energy supply startup control circuit, the electric energy of power supply energy storage change-over circuit output is for infrared radiation receiving circuit and driving circuit, make infrared radiation receiving circuit output control signal, the normally opened contact adhesive of the relay K of AC power circuit, zero stand-by power consumption battery saving arrangement starts, the AC power that is inserted in the consumer on master control supply socket XS1 is connected with the AC power that is inserted in the consumer on controlled source socket XS2,

After G, zero stand-by power consumption battery saving arrangement start, consumer work on the master control supply socket XS1 of AC power circuit, the voltage of the out secondary output of the current sensor TA of current detection circuit is higher, the output terminal output low level of inverter ic 3A, relay K keeps adhesive, and the AC power that is inserted in the AC power of the consumer on the master control supply socket XS1 of AC power circuit and is inserted in the consumer on controlled source socket XS2 keeps connecting;

H, the consumer being inserted on the master control supply socket XS1 of AC power circuit uses while entering holding state, the voltage of the out secondary output of the current sensor TA of current detection circuit is lower, the output terminal output high level of inverter ic 3A, after resistance R 3 and capacitor C 5 time delays, make the output terminal output low level of inverter ic 3B, relay K discharges, the normally opened contact of the relay K of AC power circuit disconnects, be inserted in the AC power of the consumer on master control supply socket XS1 and be inserted in the AC power of the consumer on controlled source socket XS2 and the whole power-off of AC power of zero stand-by power consumption battery saving arrangement itself.

Embodiment mono-

As shown in accompanying drawing 1, accompanying drawing 2, if a certain computer use have host computer and a display, just the attaching plug of host computer is inserted on master control supply socket XS1, it is upper that the attaching plug of display is inserted in controlled source socket XS2, and the power switch of display is located to the state of start.

If the computer peripheral equipment using is many, can increase the quantity of controlled source socket, also can be inserted in controlled source socket XS2 with a common multidigit electric power plug socket upper, reach and increase the quantity that computer peripheral equipment is used.

Capacitor C 8 is to adopt farad capacitor store electrical energy, just consumes the electric energy of storage when only pressing direct supply start button SB2 or using infrared remote controller.After zero stand-by power consumption battery saving arrangement starts, this device will give capacitor C 8 chargings automatically.When zero stand-by power consumption battery saving arrangement quits work, by charge power supply GB, be that capacitor C 8 electric energy supplement start for zero stand-by power consumption battery saving arrangement.Therefore the electric energy that, capacitor C 8 stores can work long hours.

Press AC power start button SBI or direct supply start button SB2, reset response due to capacitor C 4 and triode V1, no matter originally whether there was electricity in capacitor C 5, the output terminal of inverter ic 3B all can be exported high level, make triode V2 conducting, the normally opened contact adhesive of relay K, being inserted in host computer on master control supply socket XS1 obtains electric and is inserted in display on controlled source socket XS2 and starts and start working, press the start button of host computer, host computer starts starts working, the voltage of the secondary coil output of the current sensor TA connecting with master control supply socket XS1 is higher, the output terminal output low level of inverter ic 3A, the output terminal of inverter ic 3B will be exported high level, make relay K keep attracting state.

After computer is finished using, to use the shutdown of Windows software equally, after host computer shutdown, host computer just enters holding state, the voltage of the secondary coil output of the current sensor TA connecting with master control supply socket XS1 is lower, the output terminal output high level of inverter ic 3A, after resistance R 3 and capacitor C 5 time delays, the output terminal output low level of inverter ic 3B, triode V2 cut-off, relay K discharges, the normally opened contact of the relay K of AC power circuit disconnects, be inserted in the AC power of the host computer on master control supply socket XS1 and be inserted in the AC power of the display on controlled source socket XS2 and the whole power-off of AC power of zero stand-by power consumption battery saving arrangement itself, make host computer and display and zero stand-by power consumption battery saving arrangement there is no stand-by power consumption.

Embodiment bis-

As shown in accompanying drawing 1, accompanying drawing 2, if teleview, just the attaching plug of televisor is inserted in to master control supply socket XS1 upper, it is upper that the attaching plug of Set Top Box is inserted in controlled source socket XS2, and the power switch of the power switch of televisor and Set Top Box is located to the state of start.

Press the power on/off button on the infrared remote controller of televisor, infrared reception wiretap V5 conducting, infrared radiation receiving circuit and driving circuit obtain electric.Infrared receiver IR receives after the infrared signal that the infrared remote controller of televisor sends, the output end vo ut of infrared receiver IR just exports a series of level pulse, in capacitor C 6, will obtain high level, make the output terminal output low level of inverter ic 3C, the output terminal of inverter ic 3B will be exported high level, triode V2 conducting, the normally opened contact adhesive of relay K, the AC power that is inserted in the televisor on master control supply socket XS1 is all connected with the AC power that is inserted in the Set Top Box on controlled source socket XS2, now just can press TV remote controller operates, teleview.After televisor starts, the voltage of the secondary coil of the current sensor TA connecting with master control supply socket XS1 output is higher, the output terminal output low level of inverter ic 3A, and the output terminal of inverter ic 3B will be exported high level, makes relay K keep attracting state.Meanwhile, the DC current of DC-stabilized circuit starts to capacitor C 8 charging store electrical energy through triode V3.

Finish watching TV with after TV remote controller shutdown, televisor just enters holding state, the voltage of the secondary coil output of the current sensor TA connecting with master control supply socket XS1 is lower, the output terminal of inverter ic 3A will be exported high level, after resistance R 3 and capacitor C 5 time delays, the output terminal output low level of inverter ic 3B, triode V2 cut-off, relay K discharges, the normally opened contact of the relay K of AC power circuit disconnects, be inserted in the AC power of the televisor on master control supply socket XS1 and be inserted in the AC power of the Set Top Box on controlled source socket XS2 and the whole power-off of AC power of zero stand-by power consumption battery saving arrangement itself, make televisor and Set Top Box and zero stand-by power consumption battery saving arrangement there is no stand-by power consumption.

Capacitor C 8 is to adopt farad capacitor store electrical energy, when zero stand-by power consumption battery saving arrangement quits work, by charge power supply GB, is capacitor C 8 electric energy supplement, and therefore, the electric energy that capacitor C 8 stores can work long hours.

Embodiment tri-

If use single office electrical equipment or household electrical appliance, just the attaching plug of single office electrical equipment or household electrical appliance is inserted on master control supply socket XS1.Press AC power start button SB1 or direct supply start button SB2, reset response due to capacitor C 4 and triode V1, no matter originally whether there was electricity in capacitor C 5, the output terminal of inverter ic 3B all can be exported high level, make triode V2 conducting, the normally opened contact adhesive of relay K, the AC power that is inserted in office electrical equipment on master control supply socket XS1 or household electrical appliance is connected, after office electrical equipment or household electrical appliance obtain electric work, the voltage of the secondary coil output of the current sensor TA connecting with master control supply socket XS1 is higher, the output terminal output low level of inverter ic 3A, the output terminal of inverter ic 3B will be exported high level, make relay K keep attracting state.

When handle official business electrical equipment or household electrical appliance enter holding state, the voltage of the secondary coil output of the current sensor TA connecting with master control supply socket XS1 is lower, the output terminal output high level of inverter ic 3A, after resistance R 3 and capacitor C 5 time delays, the output terminal output low level of inverter ic 3B, triode V2 cut-off, relay K discharges, the normally opened contact of the relay K of AC power circuit disconnects, be inserted in office electrical equipment or the AC power of household electrical appliance and the whole power-off of AC power of zero stand-by power consumption battery saving arrangement itself on master control supply socket XS1, make to handle official business electrical equipment or household electrical appliance and zero stand-by power consumption battery saving arrangement do not have stand-by power consumption.

The above embodiment is described embodiments of the present invention; it is not limiting the scope of the invention; therefore; the present invention will can not be restricted to embodiment illustrated herein; but relevant those skilled in the art; in the situation that not departing from design spirit and scope of the present invention; the various conversion that can also make or modification and improve and any modification of doing, be equal to and replace or change etc.; within all should being included in the category of the present invention's protection, by appended invention claims, limited.

Claims (9)

1. a zero stand-by power consumption battery saving arrangement, it is characterized in that this device comprises AC power circuit (1), DC-stabilized circuit (2), power supply energy storage change-over circuit (3), energy supply startup control circuit (4), infrared radiation receiving circuit (5), driving circuit (6) and current detection circuit (7), the AC power of described AC power circuit (1) is connected to the power input of DC-stabilized circuit (2), the output terminal of DC-stabilized circuit (2) is connected respectively to power supply energy storage change-over circuit (3), infrared radiation receiving circuit (5), driving circuit (6) and current detection circuit (7), the master control power supply of described AC power circuit (1) is connected to the input end of current detection circuit (7), the output terminal of current detection circuit (7) is connected to the input control end of driving circuit (6), the power output end of described power supply energy storage change-over circuit (3) is connected respectively to infrared radiation receiving circuit (5) and driving circuit (6), the power supply of power supply energy storage change-over circuit (3) is connected to the input end of energy supply startup control circuit (4), the control end of described energy supply startup control circuit (4) is connected to the power end of power supply energy storage change-over circuit (3),

Described AC power circuit (1) comprises AC power start button SB1, the normally opened contact of relay K, master control supply socket XS1 and controlled source socket XS2, described one end of normally opened contact of AC power start button SB1 and one end of the normally opened contact of relay K are connected respectively to the L end of AC power, the other end of normally opened contact of AC power start button SB1 and the other end of the normally opened contact of relay K are connected respectively to the L end of controlled source socket XS2, one input end of the primary coil of the current sensor TA of the primary coil input end of the power transformer T of DC-stabilized circuit (2) and current detection circuit (7), another input end of the primary coil of current sensor TA is connected to the L end of master control supply socket XS1,

Described DC-stabilized circuit (2) comprises power transformer T, rectifier bridge diode UR, voltage stabilizer IC1, insurance FU, resistance R 7, capacitor C 1, capacitor C 2, capacitor C 3, diode D1 and light emitting diode VL1, two output terminals of the secondary coil of described power transformer T are connected respectively to two input ends of rectifier bridge diode UR, the cathode output end of rectifier bridge diode UR is connected respectively to the positive terminal of capacitor C 1 and the power input Vin of voltage stabilizer IC1, and the negative pole end of voltage stabilizer IC1 is connected to the negative pole end V of rectifier bridge diode UR _sSthe power output end Vout of voltage stabilizer IC1 through insurance FU be connected respectively to the positive terminal of capacitor C 2, one end of resistance R 8 of one end of resistance R 7, power supply energy storage change-over circuit (3), the positive terminal of the diode D10 of the collector of triode V3, driving circuit (6) and resistance R 11 one end of current detection circuit (7), the negative pole end of described diode D1 is connected respectively to one end of resistance R 10 of one end of capacitor C 3, driving circuit (6), the power input V of the inverter ic 3 of the positive terminal of capacitor C 10, infrared radiation receiving circuit (5) _dDpower input V with infrared receiver IR _dD, the other end of described resistance R 7 is connected to the positive terminal of light emitting diode VL1;

Described power supply energy storage change-over circuit (3) comprises resistance R 8, capacitor C 8, diode D2, diode D3, voltage stabilizing diode VS2, triode V3, voltage transformation module IC2 and charge power supply GB, described resistance R 8 one end are connected respectively to the base stage of negative pole end and the triode V3 of voltage stabilizing diode VS2, the emitter of triode V3 is connected respectively to the positive terminal of capacitor C 8, the negative pole end of diode D3, one end of the infrared receiver switch V5 of the power input Vin of voltage transformation module IC2 and energy supply startup control circuit (4), one end of direct supply start button SB2, the positive terminal of described diode D3 is connected to the positive terminal of charge power supply GB, the negative pole end of described diode D2 is connected respectively to the power input V of the inverter ic 3 of infrared radiation receiving circuit (5) _dD, infrared receiver IR power input V _dDand the positive terminal of the capacitor C 10 of driving circuit (6) is, one end of resistance R 10,

Described energy supply startup control circuit (4) comprises resistance R 12, diode D12, triode V4, infrared receiver switch V5 and direct supply start button SB2, one end of described infrared receiver switch V5 is connected to the base stage of triode V4 through resistance R 12, the collector of triode V4 is connected to the GND end of the voltage transformation module IC2 of power supply energy storage change-over circuit (3), one end of described direct supply start button SB2 is connected respectively to the positive terminal of the positive terminal of diode D12 and the diode D11 of driving circuit (6), the negative pole end of described diode D12 is connected to one end of resistance R 12 and the other end of infrared receiver switch V5,

Described infrared radiation receiving circuit (5) comprises resistance R 9, capacitor C 6, capacitor C 7, diode D4, diode D5, diode D6, infrared receiver IR and inverter ic 3C, the output end vo ut of described infrared receiver IR is successively through capacitor C 7, diode D5, inverter ic 3C and diode D4 are connected to the input end of the inverter ic 3B of driving circuit (6), one end of described capacitor C 6 and one end of resistance R 9 are connected respectively to the input end of inverter ic 3C and the negative pole end of diode D5, the negative pole end of described diode D6 is connected respectively to the positive terminal of diode D5 and one end of capacitor C 7,

Described driving circuit (6) comprises resistance R 1, resistance R 2, resistance R 3, resistance R 4, resistance R 10, capacitor C 4, capacitor C 5, capacitor C 10, diode D7, diode D9, diode D10, diode D11, triode V1, triode V2, inverter ic 3B and relay K, the negative pole end of described diode D10 is through capacitor C 4, resistance R 1 is connected respectively to one end of resistance R 4 and the base stage of triode V1, the negative pole end of described diode D11 is connected to one end of capacitor C 4, one end of described resistance R 3, the positive terminal of capacitor C 5, the collector of the positive terminal of diode D7 and triode V1 is connected respectively to the input end of inverter ic 3B, the output terminal of inverter ic 3B is connected to the base stage of triode V2 through resistance R 2, the collector of triode V2 is connected respectively to the positive terminal of diode D9 and coil one end of relay K, the coil other end of relay K is connected respectively to the negative pole end of diode D9, the negative pole end of one end of resistance R 10 and capacitor C 10,

Described current detection circuit (7) comprises resistance R 5, resistance R 6, resistance R 11, resistor RP, capacitor C 9, diode D8, voltage stabilizing diode VS1, current sensor TA, light emitting diode VL2, triode V6 and inverter ic 3A, one end of the secondary coil of described current sensor TA is connected respectively to the positive terminal of capacitor C 9 through diode D8, one end of resistance R 5, the input end of the negative pole end of voltage stabilizing diode VS1 and inverter ic 3A, the output terminal of inverter ic 3A is connected respectively to one end of resistance R 6, one end of the resistance R 3 of driving circuit (6) and the negative pole end of diode D7, the other end of described resistance R 5 is connected to one end of resistor RP, the other end of described resistance R 6 is connected to the base stage of triode V6, one end of described resistance R 11 is connected to the collector of triode V6 through light emitting diode VL2.

2. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the charge power supply GB of described power supply energy storage change-over circuit (3) is photoelectric cell.

3. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the capacitor C 8 of described power supply energy storage change-over circuit (3) is farad capacitor.

4. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the voltage transformation module IC2 of described power supply energy storage change-over circuit (3) is DC/DC voltage transformation module.

5. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the infrared receiver switch V5 of described energy supply startup control circuit (4) is infrared receiver tube.

6. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the integrated infrared receiver of infrared receiver IR of described infrared radiation receiving circuit (5).

7. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the current sensor TA of described current detection circuit (7) is current transformer.

8. a kind of zero stand-by power consumption battery saving arrangement according to claim 1, is characterized in that the resistor RP of described current detection circuit (7) is adjustable resistor.

9. a method of work for zero stand-by power consumption battery saving arrangement, is characterized in that comprising following method of work step:

A, a kind of zero stand-by power consumption battery saving arrangement being formed by AC power circuit (1), DC-stabilized circuit (2), power supply energy storage change-over circuit (3), energy supply startup control circuit (4), infrared radiation receiving circuit (5), driving circuit (6) and current detection circuit (7);

B, AC power AC deliver to DC-stabilized circuit (2) after being connected to AC power circuit (1), the direct supply of DC-stabilized circuit (2) output is delivered to respectively power supply energy storage change-over circuit (3), infrared radiation receiving circuit (5), driving circuit (6) and current detection circuit (7), and after zero stand-by power consumption battery saving arrangement startup, DC-stabilized circuit (2) is given capacitor C 8 chargings of power supply energy storage change-over circuit (3) automatically;

The electric energy that the capacitor C 8 of C, power supply energy storage change-over circuit (3) stores after voltage transformation module IC2 and diode D2 respectively for infrared radiation receiving circuit (5) and driving circuit (6);

When D, zero stand-by power consumption battery saving arrangement quit work, by charge power supply GB, be capacitor C 8 electric energy supplement, for zero stand-by power consumption battery saving arrangement, start;

E is if used while not having the consumer of infra-red remote control receiving function, press the AC power start button SB1 of AC power circuit (1) or press the direct supply start button SB2 of energy supply startup control circuit (4), make the normally opened contact adhesive of the relay K of AC power circuit (1), zero stand-by power consumption battery saving arrangement starts, and the AC power that is inserted in the consumer on master control supply socket XS1 is connected with the AC power that is inserted in the consumer on controlled source socket XS2;

F, if use while thering is the consumer of infra-red remote control receiving function, press the power on/off button on the infrared remote controller of used equipment, the infrared receiver switch V5 conducting of energy supply startup control circuit (4), the electric energy of power supply energy storage change-over circuit (3) output is for infrared radiation receiving circuit (5) and driving circuit (6), make infrared radiation receiving circuit (5) output control signal, the normally opened contact adhesive of the relay K of AC power circuit (1), zero stand-by power consumption battery saving arrangement starts, the AC power that is inserted in the consumer on master control supply socket XS1 is connected with the AC power that is inserted in the consumer on controlled source socket XS2,

After G, zero stand-by power consumption battery saving arrangement start, consumer work on the master control supply socket XS1 of AC power circuit (1), the voltage of the out secondary output of the current sensor TA of current detection circuit (7) is higher, the output terminal output low level of inverter ic 3A, relay K keeps adhesive, and the AC power that is inserted in the AC power of the consumer on the master control supply socket XS1 of AC power circuit (1) and is inserted in the consumer on controlled source socket XS2 keeps connecting;

H, the consumer being inserted on the master control supply socket XS1 of AC power circuit (1) uses while entering holding state, the voltage of the out secondary output of the current sensor TA of current detection circuit (7) is lower, the output terminal output high level of inverter ic 3A, after resistance R 3 and capacitor C 5 time delays, make the output terminal output low level of inverter ic 3B, relay K discharges, the normally opened contact of the relay K of AC power circuit (1) disconnects, be inserted in the AC power of the consumer on master control supply socket XS1 and be inserted in the AC power of the consumer on controlled source socket XS2 and the whole power-off of AC power of zero stand-by power consumption battery saving arrangement itself.

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